2018 Prism Awards Winners Shine

SAN FRANCISCO, Jan. 31, 2018 — The 2018 Prism Awards for Photonics Innovation brings out the best of the best. Companies from around the world were among 30 finalists for the awards that recognize the industry’s top innovations and groundbreaking technology. This year’s awards shone a spotlight on 10 winners during the annual ceremony on Wednesday evening, Jan. 31.

“Each year, categories for the awards are driven by the innovations entered, providing direct insight into thriving and emerging ‘hot’ markets,” said SPIE CEO Eugene Arthurs.

Co-sponsored annually by SPIE and Photonics Media, the “Oscars of the photonics industry” marks its 10th year in 2018.

"These Prism Award-winning products and the companies behind them have reached new heights of technical achievement and innovation and have risen to the top of an impressive field of entries,” said Thomas Laurin, president and CEO of Laurin Publishing. “Photonics Media is proud to have stood with SPIE and the Prism Awards for 10 years in supporting breakthroughs like these that continue to transform the photonics industry and the world, and we extend our heartiest congratulations to the winners.”

Congratulations to all of this year’s winners!

Detectors and Sensors

NKT Photonics (Birkeroed, Denmark)
A growing demand for efficient renewable energy resources makes the management of power networks more complex. The LIOS EN.SURE DTS & RTTR — a long range optical fiber-based temperature and strain sensing measurement system — is designed for such management, as it monitors underground transmission and distribution power cables, as well as overhead transmission lines. Using an optical fiber embedded in the power cable, or installed externally, the LIOS EN.SURE system is able to measure temperature and strain in the cable over single-ended distances of up to 70 km. Also, it can handle up to 16 fibers and 16 separate power cables, and its strain capability can be used to detect cable disturbance, abnormal bends and/or kinks in the cable before, during and after installation.

Environmental Monitoring

Block Engineering (Massachusetts, U.S.)
Utilizing QCLs combined with mid-IR spectroscopy, the LaserWarn can quickly detect and identify chemical clouds. The system touts the widest tunable external-cavity, eye-safe lasers, as it is able to scan across a 5- to 13-µm-wide spectral range in less than 40 ms. This allows the system to provide ultra-rapid, sub-second response to chemical threats and monitoring of chemical releases. Noteably, the system's lasers can monitor chemical clouds across thousands of square feet, whether indoors and out. LaserWarn allows chemical analysis algorithms, as well, providing the ability to detect and identify components of high number, multi-component mixtures in real-world environments.

Luminar (Florida, U.S.)
Addressing unmet needs for the autonomous mobility industry, the Model-G 3D LiDAR system delivers million data points at full range specification per second per second; each point is able to detect less than 10 percent reflective targets at more than 200 m away. It simultaneously achieves 38x greater spatial resolution and 6x farther range than most existing systems. The new architecture features a single laser and detector pair to rapidly collect information from the environment while remaining eye safe. Its sensor operates at 1550 nm, which requires InGaAs. A new Si-InGaAs hybrid ASIC is involved, with an order of magnitude higher performance and lower cost than other InGaAs receivers. The Model-G 3D LiDAR is the first dynamically configurable system operating at 1550 nm.

Lasers

Class 5 Photonics (Hamburg, Germany)
At an industry-leading 1 mJ, 100-kHz, 100-W, the Supernova OPCPA — “the most powerful femtosecond laser on the market” — performs 10x faster than conventional Ti:Sapphire lasers. It feautres extremely short pulse durations down to 15 fs, and covers a broad wavelength range (from 0.4 to 3.0 μm). Wavelength flexibility allows tailoring to custom multi-color experiments at full system performance and stability. The Supernova OPCPA can be employed in research of attosecond science, material processing and ultrafast spectroscopy.

Life Science Instrumentation

Quantumcyte (California, U.S.)
The Q1 ArraySeQ is a single cell analysis platform for phenotypic profiling of individual cells over thousands simultaneously, and can link the information to genetic data collected from each cell. This phenotypic to genotypic correlation over many thousands of cells at the same time enables new personalized treatment options for cancer and other genetic diseases.

Material Processing and Additive Manufacturing

LIMO GmbH (Dortmund, Germany)
The Activation Line UV-L750 is an optical beam delivery and beam shaping system designed for UV laser lift-off (LLO) of flexible OLED displays. Its optical beam transformation technology enables 10x larger depth-of-field for high-end lift-off processes in mass production tools for flexible OLEDs. It can combine up to 12 laser sources into one single line beam profile, and can also be used for LLO and solid-state laser annealing.

Medical Diagnostics and Therapeutics

ContinUse Biometrics (Tel Aviv, Israel)
Used for biomedical remote sensing, the SmartHealth Mod smartphone sensor detects nanovibrations in the body. It is the first photonic sensor capable of simultaneously monitoring several bioparameters continuously and from a distance. A smartphone add-on, it can monitor heart rate, variability and pulsewave velocity, and is the first non-contact blood pressure sensor. The SmartHealth Mod can also be used in smart homes and smart cars for home health care.

AdlOptica Optical Systems GmbH (Berlin)
The foXXus multifocus optics technology allows simultaneous multi-layer material processing for effective depth-of-field and controlled propagation of a processed zone such as cracks in glass and other brittle materials. With refractive design and lenses with polished optical surfaces, it is used in conjunction with lasers to redistribute energy along the optical axis (polarization energy splitting). FoXXus offers high resistance to CW and ultra-short pulse lasers, providing up to eight separate foci.

Test and Measurement

Spheryx Inc. (New York, U.S.)
The xSight accurately detects, counts and characterizes particle size and refractive index in the sub-visible range (500 nm to 10 μm). It is the first instrument that can quickly provide quantitative measurement of size and composition in complex samples, in their native environments and in real time. In addition, the xSight can simultaneously identify and characterize similarly-sized particles, and it measures them directly. The device's high-speed analysis algorithm increases the rate of manufacturing process control.